Representative user journeys for content sessions

ABSTRACT

Systems, methods, and computer-readable storage media for determining user journeys during presentations of content. The system first determines an average time spent for sessions associated with a presentation of content. Next, the system identifies a representative group of sessions from the sessions by identifying each of the sessions having a respective time spent within a statistical range from the average time spent for the sessions. The system then determines a most common path of events from the representative group of sessions to yield a most common user journey associated with the presentation of content.

TECHNICAL FIELD

The present technology pertains to presenting invitational content, andmore specifically pertains to determining user journeys for sessions ofinvitational content.

BACKGROUND

Mobile advertising is widely used by advertisers to market theirproducts via mobile devices. Given the widespread availability of mobiledevices, mobile advertising can be an extremely effective way foradvertisers to reach a wide mass of potential customers and inducenumerous users to purchase their products. By targeting mobile userswith effective mobile advertisements, advertisers can yield largefinancial returns from their mobile advertisements. Not surprisingly,many advertisers continuously measure the performance of theiradvertisements to understand how, if necessary, they can optimize theiradvertisements for a better performance. Moreover, advertisers, creativeagencies and designers of rich media advertising units are ofteninterested in understanding and visualizing how users interact withtheir advertising units.

Current solutions for studying user interactions are typically limitedto browsing through large numbers of sessions, or simply studyingstatistics of what choices users make at particular points within anadvertising experience. Unfortunately, these methods are inefficient andfail to illustrate the user experience in an accurate and comprehensivemanner. In addition, many of the details of the interactions of a userare lost in the numbers and statistics under the present solutions. Yetsuch details can be extremely informative and helpful in guiding andoptimizing the user experience.

SUMMARY

Additional features and advantages of the disclosure will be set forthin the description which follows, and in part will be obvious from thedescription, or can be learned by practice of the herein disclosedprinciples. The features and advantages of the disclosure can berealized and obtained by means of the instruments and combinationsparticularly pointed out in the appended claims. These and otherfeatures of the disclosure will become more fully apparent from thefollowing description and appended claims, or can be learned by thepractice of the principles set forth herein.

Disclosed are systems, methods, and non-transitory computer-readablestorage media for determining user journeys during presentations ofcontent. The system first determines an average time spent for sessionsassociated with a presentation of content. The sessions can include anynumber of sessions associated with the presentation of content and/orthe content delivery system. In some cases, the sessions can include oneor more groups of sessions selected as input based on one or morefactors, such as characteristics, segments, targeting values, etc. Thepresentation of content can include video, audio, text, or any othertype of media content. The average time spent for the sessions can becalculated based on a respective time spent for each of the sessions.For example, the time spent for each of the sessions can be combined,and the combined value used to calculate the average time spent based onthe number of sessions included in the calculation.

Next, the system identifies a representative group of sessions from thesessions by identifying each of the sessions having a respective timespent within a statistical range from the average time spent for thesessions. For example, the system can calculate a statisticaldistribution of time spents associated with the sessions, and select apredefined range, such as 10%, from the average time spent as indicatedin the distribution, to select the representative group of sessions. Thesegment of sessions or percentile range within the distribution used toidentify the representative group of sessions can be relative to theaverage time spent or any other point(s) in the distribution, such asthe end points representing the lowest and highest percentiles, forexample. Moreover, the segment of sessions or percentile range can varybased on specific goals or applications.

The representative group of sessions can be a subgroup of the sessionsused as input. For example, the representative group of sessions can bea subgroup of the sessions having the highest likelihood of includingthe most common path of events for the particular presentation ofcontent. In this sense, the representative group of sessions can referto the subgroup of sessions estimated or projected to be the mostrepresentative sessions of the most common paths of the sessions or usertrajectories during the presentation of content.

Next, the system determines a most common path of events from therepresentative group of sessions to yield a most common user journeyassociated with the presentation of content. The system can analyze thestatistics associated with each of the events in the representativegroup of sessions to determine the most common events within therepresentative group of sessions. The system can identify the pathcorresponding to each of the sessions in the representative group ofsessions and compare the paths to determine the most common path ofevents. The most common user journey can be based on the most commonpath of events, and can represent the most common interactions duringthe presentation of content.

In some embodiments, the system can then generate a visualrepresentation of the most common user journey. Here, the system canpresent the most common path of events via a graphical user interface,and represent different events and information using various graphicalelements, such as icons, images, screenshots, videos, simulations,taxonomies, etc. The system can also include visual representations ofdifferent paths and sessions, and visually depict the various detailsand relationships of items in one or more user journeys.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to describe the manner in which the above-recited and otheradvantages and features of the disclosure can be obtained, a moreparticular description of the principles briefly described above will berendered by reference to specific embodiments thereof which areillustrated in the appended drawings. Understanding that these drawingsdepict only exemplary embodiments of the disclosure and are nottherefore to be considered to be limiting of its scope, the principlesherein are described and explained with additional specificity anddetail through the use of the accompanying drawings in which:

FIG. 1 illustrates an exemplary configuration of devices and a network;

FIG. 2 illustrates an exemplary process for generating a user journey;

FIG. 3 illustrates exemplary time spent statistics for a group ofsessions;

FIG. 4 illustrates an exemplary route map;

FIG. 5 illustrates an exemplary decision tree showing user journeys;

FIGS. 6A and 6B illustrate exemplary heat maps based on screenshots ofcontent;

FIG. 7 illustrates an exemplary method embodiment; and

FIGS. 8A and 8B illustrate exemplary system embodiments.

DESCRIPTION

Various embodiments of the disclosure are discussed in detail below.While specific implementations are discussed, it should be understoodthat this is done for illustration purposes only. A person skilled inthe relevant art will recognize that other components and configurationsmay be used without parting from the spirit and scope of the disclosure.

The disclosed technology addresses the need in the art for accurate anddetailed representations of typical user activities and paths in asession of content. Disclosed are systems, methods, and non-transitorycomputer-readable storage media for determining user journeys inpresentations of content. A brief introductory description of anexemplary configuration of devices and a network is disclosed herein. Adetailed description of user journeys and exemplary variations will thenfollow. These variations shall be described herein as the variousembodiments are set forth. The disclosure now turns to FIG. 1.

An exemplary system configuration 100 is illustrated in FIG. 1, whereinelectronic devices communicate via a network for purposes of exchangingcontent and other data. The system can be configured for use on a widearea network such as that illustrated in FIG. 1. However, the presentprinciples are applicable to a wide variety of network configurationsthat facilitate the intercommunication of electronic devices. Forexample, each of the components of system 100 in FIG. 1 can beimplemented in a localized or distributed fashion in a network.

In system 100, invitational content can be delivered to user terminals102 ₁, 102 ₂, . . . , 102 _(n) (collectively “102”) connected to anetwork 104 by direct and/or indirect communications with a contentdelivery system 106. User terminals 102 can be any network enabledclient devices, such as desktop computers; mobile computers; handheldcommunications devices, e.g. mobile phones, smart phones, tablets; smarttelevisions; set-top boxes; and/or any other network enabled computingdevices. Furthermore, content delivery system 106 can concurrentlyaccept connections from and interact with multiple user terminals 102.

The content delivery system 106 can receive a request for electroniccontent, such as a web page, an application, a media item, etc., fromone of user terminals 102. Thereafter, the content delivery system 106can assemble a content package and transmit the assembled content pageto the requesting one of user terminals 102. To facilitatecommunications with the user terminals 102 and/or any other device orcomponent, the content delivery system 106 can include a communicationsinterface 120.

The content delivery system 106 can include a content management module122 to facilitate the generation of an assembled content package.Specifically, the content management module 122 can combine content fromone or more primary content providers 109 ₁, 109 ₂, . . . , 109 _(n)(collectively “109”) and content from one or more secondary contentproviders 110 ₁, 110 ₂, . . . 110 _(n) (collectively “110”) to generatethe assembled content package for the user terminals 102. For example,in the case of a web page being delivered to a requesting one of userterminals 102, the content management module 122 can assemble a contentpackage by requesting the data for the web page from one of the primarycontent providers 109 maintaining the web page. For the invitationalcontent on the web page provided by the secondary content providers 110,the content management module 122 can request the appropriate dataaccording to the arrangement between the primary and secondary contentproviders 109 and 110. Additionally, the content management module 122can create content packages that contain content from a single contentprovider. That is, a content package can contain only primary content ora content package can contain only secondary content. However, thecontent package is not limited to the content from content providers 109and 110. Rather, the content package can include other data generated atthe content delivery system 106. In some embodiments, the contentdelivery system 106 can preselect the content package before a requestis received.

An assembled content package can include text, graphics, audio, video,executable code, or any combination thereof. Further, an assembledcontent package can include invitational content designed to inform orelicit a pre-defined response from the user. In some embodiments, theinvitational content can be associated with a product or can directly orindirectly advertise a product. For example, the assembled contentpackage can include one or more types of advertisements from one or moreadvertisers.

Additionally, the invitational content can be active invitationalcontent. That is, invitational content that is designed to primarilyelicit a pre-defined response from a user. For example, activeinvitational content can include one or more types of advertisementsconfigured to be clicked upon, solicit information, or be converted bythe user into a further action, such as a purchase or a download of theadvertised item. However, invitational content can also be passiveinvitational content. That is invitational content that is designed toprimarily inform the user, such as a video. In some cases, passiveinvitational content can include information that can lead or directusers to other invitational content including active invitationalcontent.

Furthermore, the invitational content can be dynamic invitationalcontent. That is invitational content that varies over time or thatvaries based on user interaction. For example, dynamic invitationalcontent can include an interactive game. However, the variousembodiments are not limited in this regard and the invitational contentcan include static invitational content that neither varies over timenor with user interaction. In the various embodiments, invitationalcontent in a content package can be static or dynamic and active orpassive. A content package can include a combination of various types ofinvitational content in a single content package.

In some cases, a content package can replace or update invitationalcontent in a content package already delivered to a user terminal. Forexample, a first content package can include an app that can beinstalled on the user terminal 102 _(i). A subsequent content packagecan include one or more items of invitational content that can bepresented to a user of the user terminal 102 _(i) while the userinteracts with the app.

Although primary and secondary providers 109 and 110 are presentedherein as separate entities, this is for illustrative purposes only. Insome cases, the primary and the secondary content providers 109 and 110can be the same entity. Thus, a single entity can provide both theprimary and the secondary content.

The content management module 122 can be configured to request thatcontent be sent directly from content providers 109 and 110.Alternatively, a cached arrangement can also be used to improveperformance of the content delivery system 106 and improve overall userexperience. That is, the content delivery system 106 can include acontent database 150 for locally storing/caching content maintained bycontent providers 109 and 110. The data in the content database 150 canbe refreshed or updated on a regular basis to ensure that the content inthe database 150 is up to date at the time of a request from a userterminal 102 _(i). However, in some cases, the content management module122 can be configured to retrieve content directly from contentproviders 109 and 110 if the metadata associated with the data in thecontent database 150 appears to be outdated or corrupted.

As described above, content maintained by the content providers 109 and110 can be combined according to a predefined arrangement between thetwo content providers, which can be embodied as a set of rules. In anarrangement where the content delivery system 106 assembles the contentpackage from multiple content providers, the assembly rules can bestored in a rules database 152 in the content delivery system 106. Thecontent management module 122 can be configured to assemble the contentpackage for user terminals 102 based on these rules. The rules canspecify how to select content from secondary content providers 110 andprimary content providers 109 in response to a request from one of userterminals 102. For example, in the case of a web page maintained by oneof primary content providers 109 and including invitational content, therules database 152 can specify rules for selecting one of the secondaryproviders 110. The rules can also specify how to select specific contentfrom the selected one of secondary providers 110 to be combined with thecontent provided by one of primary providers 109. In some cases, an itemof primary content, such as an app or other media object, can have oneor more associated attributes. For example, an app can have one or moreassociated genre attributes, e.g. travel, sports, education, etc. A rulecan be based at least in part on the primary content attributes. Onceassembled, the assembled content package can be sent to a requesting oneof user terminals 102.

Additionally, rules for combining primary and secondary content can bebased on user characteristics known about the user. In particular, insome cases, invitational content can be selected based on thecharacteristics of the requesting user(s). As used herein, the term“user characteristics” refers to the characteristics of a particularuser associated with one or more of user terminals 102. Usercharacteristics can include channel characteristics, demographiccharacteristics, behavioral characteristics, and spatial-temporalcharacteristics. Channel characteristics can define the specificdelivery channel being used to deliver a content package to a user. Forexample, channel characteristics can include a type of electroniccontent, a type of device or user terminal, a carrier or networkprovider, or any other characteristic that defines a specific deliverychannel for the content package. Spatial-temporal characteristics candefine a location, a location zone, a date, a time, or any othercharacteristic that defines a geographic location and/or a time fordelivery of the content package. Demographic characteristics can definecharacteristics of the users targeted by the content or associated withthe content. For example, demographic characteristics can include age,income, ethnicity, gender, occupation, or any other usercharacteristics. Behavioral characteristics can define user behaviorsfor one or more different types of content, separately or in combinationwith any other user characteristics. That is, different behavioralcharacteristics may be associated with different channel, demographic,or spatial-temporal characteristics. User characteristics can alsoinclude characteristics descriptive of a user's state of mind includingcharacteristics indicative of how likely a user is to click on orconvert an item of invitational content if it were displayed to theuser. User characteristics can be learned directly or derived indirectlyfrom a variety of sources. In some embodiments, the user characteristicvalues can be collected from one or more databases. For example, if theuser is registered with an online media service, such as the ITUNESstore maintained by Apple Inc. of Cupertino, Calif., the collected datacould include the user's registration information. Such data can providevalues for declared user characteristics. Furthermore, the contentdelivery system 106 can be configured to learn of or derive usercharacteristics from any number of other information sources. Forexample, in some configurations, the content delivery system 106 canderive or infer one or more user characteristic values from usercharacteristic values already known about the user.

In some embodiments, the interactive content can be associated with oneor more targeted segments. A targeted segment can be viewed as defininga space or region in k-dimensional space, where each of the k dimensionsis associated with one of a plurality of user characteristics. In thevarious embodiments, the k dimensions can include both orthogonal andnon-orthogonal dimensions. That is, some of the k dimensions can overlapor can be related in some aspect.

In the various embodiments, the content delivery system 106 can alsoinclude a unique user identifier (UUID) database 154 that can be usedfor managing sessions with the various user terminal devices 102. TheUUID database 154 can be used with a variety of session managementtechniques. For example, the content delivery system 106 can implementan HTTP cookie or any other conventional session management method(e.g., IP address tracking, URL query strings, hidden form fields,window name tracking, authentication methods, and local shared objects)for user terminals 102 connected to content delivery system 106 via asubstantially persistent network session. However, other methods can beused as well. For example, in the case of handheld communicationsdevices, e.g. mobile phones, smart phones, tablets, or other types ofuser terminals connecting using multiple or non-persistent networksessions, multiple requests for content from such devices may beassigned to a same entry in the UUID database 154. The content deliverysystem 106 can analyze the attributes of requesting devices to determinewhether such requests can be attributed to the same device. Suchattributes can include device or group-specific attributes.

In some embodiments, the content delivery system 106 can include auser-profile database 156. The user-profile database 156 can, at leastin part, be constructed based on declared user characteristics relatedto one or more users. In some cases, the user-profile database maycontain inferred or derived user characteristic values. The user-profiledatabase 156 can be updated using a user-profile-updater module 124. Insome embodiments, the user-profile-updater module 124 can be configuredto add additional profile data, update profile data, fill in missingprofile data, or infer user characteristic values from declared data.

The user-profile-updater module 124 can also be configured to maintainthe user profile database 156 to include only more recently acquireddata or to re-derive any inferred characteristics in order to ensurethat the user profile is an accurate reflection of the current state ofthe user (location, state of mind, behaviors, demographics, etc. canchange rapidly). For example, the user-profile-updater module 124 can beconfigured to maintain the user profile database 156 to include onlydata from the last two to three months. However, theuser-profile-updater module 124 can be configured to adjust the data inthe user profile database 156 to cover any span of time. In someinstances the user-profile-updater module 124 can update the profiledatabase 156 in real-time. Alternatively, the user-profile-updatermodule 124 can be configured to set an expiration period on a subset ofthe data in the user profile database 156. For example, a policy canspecify that user declared data is maintained as long as the useraccount is active, but user characteristic values based on locationinformation expire after a specified period of time. In some cases, auser can set the expiration period. In some instances, theuser-profile-updater module 124 can update the user profile database 156at least every week, or every day. In some cases, the content deliverysystem 106 can receive a direct request to update one or more userprofiles. The update request can come directly from the user's device orany other device capable of communicating with the content deliverysystem 106, such as other content delivery networks or websites. In somecases, the content delivery system 106 can receive an indirect requestto update one or more user profiles. An indirect request can be theresult of receiving new user characteristic values. An update requestcan occur at any time.

In some embodiments, the content delivery system 106 can include asegment database 158 that is used to aid in selecting invitationalcontent to target to users. The segment database 158 can store definedsegments and associations between the segments and users and/orinvitational content that should be targeted to users associated withthe segments. As described above, a targeted segment can be definedbased on one or more user characteristics or derivatives thereof and canbe associated with one or more items of invitational content.Additionally, a targeted segment can be associated with one or moreusers. In some embodiments, by associating a targeted segment with botha user and an item of invitational content, the delivery system canmatch invitational content with users. In some embodiments, the contentdelivery system 106 can update the segment database 158 to add newlydefined targeted segments or to delete targeted segments.

In some cases a targeted segment can be as simple as a single usercharacteristic identifier and a single user characteristic value. Forexample, the common demographic identifiers of gender, age, occupation,or income can each be used in defining corresponding targeted segments.A characteristic value can also be assigned to the identifier. Forexample, the values of male, 19, and student can be assigned to the usercharacteristics of gender, age, and occupation, respectively. However,more complex targeted segments can also be defined that consist of oneor more identifiers with one or more values associated with eachidentifier. For example, a targeted segment can be defined to target auser with the following characteristics: gender, male; age, 19-24;location, Northern California or New York City. Additional exemplarysegments are described throughout this disclosure. Furthermore, targetedsegments can correspond to one or more segments that content providersare likely to easily understand and thus can quickly identify as beingrelevant to their content. Additionally, in some embodiments, contentproviders 109 and 110 can define a custom targeted segment.

In some embodiments, the content delivery system 106 can also include asessions database 160. The sessions database 160 can store sessioninformation collected for one or more user sessions. For example, thesessions database 160 can store sessions of content presented at userterminals 102. In some cases, the sessions database 160 can store timespent information for sessions of content. For example, the sessionsdatabase 160 can store a record for each session of content at the userterminals 102, and the time spent measured for each of the sessions. Thetime spent can include the length of a session, the amount of time spentby the user engaged in the content presented in a session, the amount ofactive engagement in the session, the amount of passive engagement inthe session, the absolute length of time of a session, etc. Such timespent information can be stored in the sessions database 160. Other timespent information, such as average time spent for one or more sessionsor adjusted time spent for one or more sessions, can also be stored inthe sessions database 160.

The sessions database 160 can store any number of sessions used orselected as input by the user journey processing module 132, as furtherdescribed below, or any other module, component, and/or device.Moreover, the sessions in the sessions database 160 can be stored inspecific groupings, segments, categories, clusters, and/or partitions,based on one or more factors and characteristics, as further describedherein. In some configurations, groups or clusters of sessions andcorresponding session information, such as time spent information, canbe stored in the sessions database 160 according to session clusters,segments, or groupings used by the user journey processing module 132 toprocess or generate user journey information. Further, the sessionsdatabase 160 can also store session events and related information, suchas user activity and inputs, as well as user journeys.

In some embodiments, the content delivery system 106 can provide asegment assigner module 126. The segment assigner module 126 can apply aset of user characteristics associated with a user (including segmentsto which a user has been previously assigned) to assign the user to oneor more targeted segments. The assigner module 126 can obtain the set ofuser characteristic values from the user profile database 154 and/orfrom the user's activities during the current session. The segmentassigner module 126 can assign a user to one or more defined targetedsegments in the segment database 158, or alternatively, a user can beassigned to a custom targeted segment defined to meet specific goals ofa content provider.

Based on the assigned segments, the user profile database 156 can beupdated to reflect the segment assignments. Additionally, the contentdelivery system 106 can use the segment assignments to select targetedcontent. In some cases, the user profile data in the user profiledatabase 156 can change over time so the segment assigner module 126 canbe configured to periodically update the segment assignments in the userprofile database 156. The segment assignment update can be triggered atspecified intervals, upon detection of a change in the user profiledatabase 156, and/or upon detection of a specified activity in thecontent delivery system 106.

In some embodiments, the content delivery system 106 can provide aprioritizer module 128. The prioritizer module 128 can perform a varietyof prioritizing tasks based on the configuration of the content deliverysystem 106. In some configurations, the prioritizer module 128 canprioritize the targeted segments assigned to a user. The prioritizationcan be influenced by a number of factors, which can include the user'scontext, a content provider's campaign goals, and/or the content that iscurrently available for display to the user. A request to prioritize thetargeted segments can be explicit or implicit and can be made by anycomponent of the system 100. For example, a secondary content provider110 can explicitly request that the content delivery system 106prioritize the targeted segments or the request can be implicit as partof a request for a content package. The resulting prioritized list canbe provided, for example, to the content management module 122, whichcan then use the information to assemble and deliver a content package.Additionally, the prioritized list can be stored, for example in theuser profile, for later use.

In some embodiments, the content delivery system 106 can include apartitioning module 130. The partitioning module 130 can performpartitioning tasks based on the configuration of the content deliverysystem 106. In some configurations, the partitioning module 130 candivide content, such as a presentation of content, or a user sessioninto partitions of time. In other configurations, the partitioningmodule 130 can divide sessions of content into partitions or subgroups.While FIG. 1 illustrates the partitioning module 130 as a component ofthe content delivery system 106, one of ordinary skill in the art willreadily recognize that the partitioning module 130 can be separate fromthe content delivery system 106. For example, in some cases, thepartitioning module 130 can be a component of content provider 109 _(i),content provider 110 _(i), user terminal 102 _(i), or any other serveror client device.

In some embodiments, the content delivery system 106 can include a userjourney processing module 132. The user journey processing module 132can take a group of sessions as input and generate one or more userjourneys as further described below. In some configurations, the userjourney can include a most common path of events calculated from thegroup of sessions used as input. The user journey processing module 132can process and analyze session information and time spent informationto generate the user journey. Moreover, the user journey processingmodule 132 can process time spent information and determine an averagetime spent for the group of sessions, as well as a statisticaldistribution of time spents associated with the group of sessions. Theuser journey processing module 132 can then use the average time spentand/or the statistical distribution of time spents to generate a userjourney. For example, the user journey processing module 132 canidentify a number of sessions having time spents within a predefinedrange of the average time spent and use the identified sessions togenerate the user journey based on the most common path of events forthe identified sessions. To this end, the user journey processing module132 can also process and analyze events, such as views, videos, andgestures, associated with one or more of the input sessions, to identifyevent statistics and metrics, for example.

The user journey processing module 132 can also use the user journeysand/or user path information to generate visual representations of theinformation, such as decision trees or route maps based on user journeyinformation. Thus, in some configurations, the user journey processingmodule 132 can generate and/or modify a graphical user interface basedon derived user journey information.

While the content delivery system 106 is presented with specificcomponents, it should be understood by one skilled in the art, that thearchitectural configuration of system 106 is simply one possibleconfiguration and that other configurations with more or less componentsare also possible.

As described above, one aspect of the present technology is thegathering and use of data available from various sources to improve thedelivery to users of invitational content or any other content that maybe of interest to them. The present disclosure contemplates that in someinstances, this gathered data may include personal information data thatuniquely identifies or can be used to contact or locate a specificperson. Such personal information data can include demographic data,location-based data, telephone numbers, email addresses, twitter ID's,home addresses, or any other identifying information.

The present disclosure recognizes that the use of such personalinformation data, in the present technology, can be used to the benefitof users. For example, the personal information data can be used todeliver targeted content that is of greater interest to the user.Accordingly, use of such personal information data enables calculatedcontrol of the delivered content. Further, other uses for personalinformation data that benefit the user are also contemplated by thepresent disclosure.

The present disclosure further contemplates that the entitiesresponsible for the collection, analysis, disclosure, transfer, storage,or other use of such personal information data will comply withwell-established privacy policies and/or privacy practices. Inparticular, such entities should implement and consistently use privacypolicies and practices that are generally recognized as meeting orexceeding industry or governmental requirements for maintaining personalinformation data private and secure. For example, personal informationfrom users should be collected for legitimate and reasonable uses of theentity and not shared or sold outside of those legitimate uses. Further,such collection should occur only after receiving the informed consentof the users. Additionally, such entities would take any needed stepsfor safeguarding and securing access to such personal information dataand ensuring that others with access to the personal information dataadhere to their privacy policies and procedures. Further, such entitiescan subject themselves to evaluation by third parties to certify theiradherence to widely accepted privacy policies and practices.

Despite the foregoing, the present disclosure also contemplatesembodiments in which users selectively block the use of, or access to,personal information data. That is, the present disclosure contemplatesthat hardware and/or software elements can be provided to prevent orblock access to such personal information data. For example, in the caseof advertisement delivery services, the present technology can beconfigured to allow users to select to “opt in” or “opt out” ofparticipation in the collection of personal information data duringregistration for services. In another example, users can select not toprovide location information for targeted content delivery services. Inyet another example, users can select to not provide precise locationinformation, but permit the transfer of location zone information.

Therefore, although the present disclosure broadly covers use ofpersonal information data to implement one or more various disclosedembodiments, the present disclosure also contemplates that the variousembodiments can also be implemented without the need for accessing suchpersonal information data. That is, the various embodiments of thepresent technology are not rendered inoperable due to the lack of all ora portion of such personal information data. For example, content can beselected and delivered to users by inferring preferences based onnon-personal information data or a bare minimum amount of personalinformation, such as the content being requested by the deviceassociated with a user, other non-personal information available to thecontent delivery services, or publically available information.

To implement the various embodiments of the present technology, thecontent delivery system 106 can include additional components. Forexample, one aspect of the present technology can implement astandardized analysis module for events. To this end, the contentmanagement system 106 can further include an item assembly module 134.The item assembly module 134 can be configured to operate afterselection of an invitational content item discussed above.

In particular, the item assembly module 134 can be configured tosupplement existing reporting capabilities associated with aninvitational content item. For example, in some cases an item ofinvitational content delivered to one or user devices 102 can include aJavaScript-based engine or module that is designed to listen or monitorfor events at the device and thereafter cause messages to be transmittedback to the content management system 106. This engine or module can behard-coded in the item. The present technology contemplatessupplementing this module with an analysis module that can be updatedover time. Thus, no updating of the invitational content item isrequired. Further, the present disclosure contemplates a standardreporting from such a module. Thus, the module can be added to any itemof invitational content, regardless of its features.

In operation, the item assembly module 134 can intercept or otherwiseobtain the item of invitational content prior to delivery to the enduser at one of devices 102. Thereafter, the item assembly module 134 cancombine current code sections and data for the analysis module, insertthem into the selected item, and allow the item to be delivered. Thecode sections can be retrieved from a code database 162. The codedatabase 162 can store various types of code sections, including codesections for identifying events at a one of the devices (e.g., eventlisteners), code sections for routing data regarding such events, basedon routing data, to an appropriate event handler, and the code sectionsfor the event handlers. The event handlers can then generate messagesregarding user engagement. The routing data can be embodied in the formof an event dictionary, which can be stored and be retrieved from anevent dictionary database 166.

The entries in the event dictionary can correspond to events, such as apage view at the end user device, a trackable view type generated at theend user device, a gesture detected at the end user device, a media itemevent at the end user device, or a system-level event at the end userdevice.

The present technology contemplates that the contents of the analysismodule being inserted into invitational content can vary over time.Accordingly, other components can be provided in content delivery system106 to facilitate such updates. The present technology contemplates thatas developers generate new invitational content, such developers canalso identify new types of events to monitor and can also generate newtypes of event handlers for processing data associated with such eventsinto a useful message. Accordingly, the present disclosure contemplatesproviding a handler registration module 136 to facilitate this process.In particular, the developer can identify to the content delivery system106 that a new event handler is being provided. For example, via userterminals 102, the developers can access the handler registration module136 by providing the event handler to be registered and anidentification of the types of events associated with the event handler.Thereafter, the handler registration module can store the event handlerin the code database 162.

Working in concert with the handler registration module 136 can be adictionary updater module 138. As discussed above, an event dictionarycan be utilized by an analysis module to route event data to anappropriate event handler. Therefore, the present disclosurecontemplates that when an event handler is registered with the handlerregistration module, contemporaneously a dictionary updater module 138can utilize information provided during the registration process tocreate an entry in the event dictionary. For example, the dictionaryupdater module 138 can update the event dictionary stored in eventdictionary database 166.

The present disclosure also contemplates that the content deliverysystem 106 can receive messages from user terminals 102 regarding userengagement with invitational content. In some embodiments, all messagesfrom user terminals 102 can be routed to a single database, such asevent log database 164. However, in other embodiments, the messages canbe processed and routed to different locations. For example, contentdelivery system 106 can include a data routing module 140 thatintelligently routes and/or stores messages based on their origin and/orcontents. In some particular embodiments, the data routing module 140can be configured to provide different routing of messages generated viathe supplemental analysis module in the invitational content andmessages generated via invitational content item, outside of theanalysis module, i.e., its native capabilities. The data routing module140 can cause routing of event messages to different databases, storagelocations, or different portions thereof. In some cases, the datarouting module 140 can encrypt or otherwise obfuscate the content of theevent messages to ensure that certain types of messages are accessibleto only certain persons.

The disclosure now turns to an introductory discussion of user journeys.As follows, a user journey can be determined to describe the average, orarchetypal, user journey for a content delivery system(s), such as an Adunit, and/or a certain subpopulation of sessions, such as targetingproducts; targeting groupings; demographic groupings; groupings withcertain performance characteristics, including successful conversions;etc. A system can also use the derived session data or user journey forplayback such that an interested party can see what the users whoreceived content from the content delivery system(s) have experienced,and/or how the users interacted with the content delivery system(s)using inputs, such as gestures.

The user journey and/or relevant session data can be derived usingsessions as input. For example, the system can use as input a subset ofsessions from a total number of sessions associated with a content item,a content presentation, and/or a content delivery system(s). The subsetof sessions can be defined by a subpopulation being studied. This caninclude all sessions for a particular system, such as a rich media Adunit; a subpopulation defined by targeting products or groupings, suchas line items, custom user cubes, custom segments, and re-targetinggroups; a subpopulation defined by demographic characteristics, such asmales of ages 18 to 21; a subpopulation based on key performanceindicator (KPI) performance, such as those users who successfullycomplete a conversion (e.g., a sign-up for a service or a download),those users who achieve particular scores in post-campaign surveys(e.g., surveys for brand recognition, favorability, etc.); or any othermethod of defining a segment, such as geographic parameters, deviceparameters, operating system (OS), day parting, users who have visitedthe same content delivery system more than once, etc.

The user journey can be created as a single composite session. Thesingle composite session can be created as follows.

First, the system can calculate the average time spent for the sessionsthat are used as input. For example, the system can calculate theaverage time spent for a specific subset of sessions which, aspreviously mentioned, can be identified based on a segment of usersaccording to one or more factors or characteristics. Here, the systemcan calculate the time spent for each session, or receive the time spentinformation for each session from one or more devices. Once the systemhas the time spent information for each of the subset of sessions, itcan determine the average time spent by dividing the combined time spentmeasurements by the number of time spent measurements.

Second, the system can then identify the sessions having a respectivetime spent that is within a specific range from the average time spent.For example, the sessions having a respective time spent within 10% ofthe average time spent can be selected, and the sessions having arespective time spent that is +/− 10% of the average time spent can bediscarded.

Third, the system can calculate the most common path of view and/orvideo events for the selected or identified sessions (i.e., the sessionshaving a respective time spent that is within the range from the averagetime spent).

Fourth, the system can calculate the most common path of gesture eventsin between each consecutive pair of views/videos in the most commonview/video path. This can be one or more gestures. In some cases, thiscan be a single gesture.

Fifth, the system can add the most common path of view and/or videoevents to the most common path of gesture events to create a completeuser journey path.

Sixth, the system can measure or calculate the average timing betweeneach consecutive pair of events in sessions following the most commonuser journey path. Here, the events can include, for example, viewevents, videos, gestures, etc.

Seventh, the system can measure or calculate the average location ofeach gesture, such as each tap, swipe, shake, pinch, zoom, touch, etc.In some cases, some of the gestures, such as swipes, pinches, and zoomscan include multiple points.

Eighth, the system can determine the final user journey path based onthe complete user journey path, the average timing between eachconsecutive pair of events, and the average location of each gesture.

Additionally, the system can cluster the session groupings intocharacteristic sub-types. In some embodiments, this clustering can bebased on an alternate algorithm, as further described below.

First, the system can calculate the most common paths of view and videoevents across the entire sample. Those which individually constitute atleast a given threshold of overall sessions (e.g., 5%) can be retained.

Second, for each path, the system can calculate the most common path ofgesture events in between each consecutive pair of views or videos inthe most common path of view and video events. In some cases, this canbe a single gesture.

Third, the system can add the most common path of gesture events to themost common path of view and video events to generate a series ofcomplete user journey paths.

Fourth, for each user journey path, the system can measure the averagetiming between each consecutive pair of events (e.g., views, videos, orgestures) in sessions following that path.

Fifth, for each user journey path, the system can measure the averagelocation of each gesture (e.g., each tap, swipe, shake, pinch, zoom,etc.).

Sixth, the system can obtain the final user journey. The final userjourney can be composed of the complete user journey paths, the averagetimings between consecutive pairs of events, and the average gesturelocation information of each gesture, along with the percentage ofoverall sessions which follow that path and the overall KPI for thatsubset of paths (AVGTS, V/V, Conversion Rate, etc.).

Moreover, the user journey and results from the user journey derivationprocess can be displayed using one or more display schemes. Below are afew non-limiting example schemes for displaying the user journey and/orresults. These examples are for illustration purposes, as other schemesare also contemplated herein.

User Journey Playback Module

A user journey playback module can take the complete user journeys,including all the events and gesture locations listed above, as inputalong with the Ad unit itself. The module can allow for the selection ofone or more user journeys from a database of pre-computer user journeys.When a user journey is selected for playback, the gesture events neededto drive the Ad unit to follow the precise user journey selected can betransmitted with the timing to the Ad unit. Additionally, a visual layercan be overlaid on the Ad unit, showing the gestures with theircorresponding timings and locations. In this gesture layer, the taps canbe displayed using shapes, the swipes can be displayed using movingshapes or stationary arrows, the pinches or zooms can be displayed withmultiple moving shapes or stationary arrows, and the shakes can bedisplayed using a visual shake effect or other location-independentrepresentation.

Decision Tree

The decision tree can present the complete user journeys using anacyclic, hierarchical visual representation with multiple nodes, each ofwhich can indicate a step (view or video) in the user journey. The nodescan be names or screen shots of the views and videos in question. Thenodes can be connected via arrows showing the paths followed, with thename or icon representing the gesture(s) superimposed on the arrow.Additionally, the percent of sessions which follow the complete paththat terminates at each node, along with the average KPI (AVGTS, V/V),can also be shown at the node.

Route Map

The route map can be a cyclic graph of the Ad unit using a spatial (map)metaphor to indicate each possible view or video in the Ad. For eachuser segment included in the representation (any of the above segmentslist, e.g., different line items on the campaign), a curvilinear routecan be shown in a different color, connecting the views or videos in thesingle user journey most representative of that user segment. Along theroute, the names or icons of the gestures on that path can besuperimposed on the route. The route map can help in identifying aprobable journey a user segment may undertake with slight modificationsto the Ad unit.

The user journey analysis can be performed with the data available atthe end of a campaign. However, in some cases, the user journey analysiscan also be performed even when the campaign is mid-flight, for example.Here, the amount of data can be sufficient to provide an insight intothe probable paths that the desired user segment may take. This can alsobe verified by introducing different Ad units simultaneously—thusproviding A/B bucket testing data. The route map can also be useful inidentifying unexpected terminal events, where users seem to exit the Adexperience with no clear intent. These insights can help identifypotential issues with the Ad unit, which can be corrected andre-deployed.

As one of ordinary skill in the art will readily recognize, otherdisplay schemes and strategies, such as a heat map scheme, can also beused with the user journey analysis. However, the schemes presentedabove are provided for illustration purposes and are non-limiting.

Moreover, in calculating user journeys, the system can record eventsfrom a session using an event recording layer, for example. Further,events can be monitored, collected, analyzed, updated, and stored aspreviously noted in the discussion of FIG. 1, above.

As previously indicated, the data collected in a campaign can be used todetermine the most common user path or user journey. In some cases,however, the data, user path information, and user journeys can also beimplemented in various other ways, as illustrated in the non-limitingexamples described below.

In some cases, once a sufficient amount of data has been collected via acampaign, a representative journey's construct can indicate that thereare more than a critical or threshold mass of users who are takingasymmetric paths via the Ad unit. This asymmetry can indicate a deeperand more complex user experience problem. Such problem can then beaddressed or alleviated in various ways. For example, an introduction ofa mini-tutorial or a guide can be provided in the next iteration of theexpanded Ad unit to help or support users and avoid such asymmetricpaths.

The asymmetric paths can also indicate issues with information flow andnavigation, in terms of decision making or the purchase funnel. Forexample, an Ad unit which exposes television SKUs may start off withpixel quality and subsequently jump into smart programming. Yet here,users may be looking first for size, second for pixel quality, andfinally for cost. The asymmetry in the user flow can thus be used torealign the data seen in the expanded Ad and Ad unit. In some cases,there can also be issues with the way users perceive certain products.For example, selling life insurance may actually be best suited to startwith a quote generator instead of upselling on the benefits of lifeinsurance. Here, the initial Ad unit may have tried the flow the otherway around, and may not receive the traffic it is actually expecting.

Furthermore, representative journeys can also be good for identifyingkey or important traffic flow through the Ad unit. However, the otherasymmetric or non-representative sessions can be used to create userprofiles for niche audiences. This can be especially useful formulti-brand advertisers who are trying to use a large pool of budgetsfor Run of Network (RON) media to identify the audience segments thatmay be more inclined to be their primary targets for more premiumbrands. An example can be hotel and resort chains. Here, a RON Ad at acorporate level of a hotel and resort chain may reveal a small group ofusers who are interested in browsing premium locations (which may not befrequented by most users). This can lead to a new, smaller, focusedhotel and resort campaign for that specific chain that is targeted atthis small group of users.

The disclosure now turns to FIG. 2, which illustrates an exemplaryprocess 200 for generating a user journey 216. Sessions 202-208 arefirst processed as input. Sessions 202-208 can be sessions of content atone or more user devices, such as user terminals 102 illustrated inFIG. 1. Sessions 202-208 can include time spent information associatedwith each of the sessions 202-208. The average time spent 210 for thesessions 202-208 is then calculated. The average time spent 210 can becalculated based on the time spent information associated with each ofthe sessions 202-208.

A group of sessions 212 is then selected based on the average time spent210. In some cases, the group of sessions 212 can include those sessionshaving a respective time spent that is within a range of the averagetime spent 210. For example, the group of sessions 212 can include thosesessions within 10% of the average time spent 210. In other cases, thegroup of sessions 212 can include a predefined number of sessions havingrespective time spents that are closest to, or farthest from, theaverage time spent. For example, the group of sessions 212 can includethe 10 sessions having the closest time spents to the average timespent.

A path 214 is then calculated for each of the sessions in the group ofsessions 212. Each path can represent the user journey for theassociated session. Accordingly, each path can include every event,view, video, gesture, input, and interaction in the session. Eachsession can also include the timing of each item in the path, such aseach event, the location of each gesture, the response for each input,and any other characteristic associated with one or more of the items inthe path.

The user journey 216 is then calculated based on the path 214 for eachsession in the group of sessions 212. In some embodiments, the userjourney 216 can represent the most common path for the group of sessions212, which can be calculated by comparing the path 214 for each sessionin the group of sessions 212. In other embodiments, the user journey 216can represent another characteristic path for the group of sessions 212.For example, the user journey 216 can represent the most uncommon pathfor the group of sessions 212. Indeed, in some cases, the user journeycan be calculated for a specific path of events showing some form ofabnormality or characteristic, to help identify a problem or errorsource. For example, the user journey can represent the path of eventstaken in sessions that encountered errors. This can help illustrate thecircumstances existing at the time of the error and even the errortriggering event.

FIG. 3 illustrates exemplary time spent statistics 300 for a group ofsessions. The time spent statistics 300 can provide a statisticaldistribution of time spent information for the group of sessions. Thetime spent information can include time spent indications 306-320corresponding to time spent data for associated sessions from the groupof sessions. The time spent statistics 300 can also include anindication 302 of the average time spent calculated for the group ofsessions. The average time spent can be calculated based on the timespent for each of the sessions in the group of sessions.

The time spent statistics 300 can be used to determine which sessionsfrom the group of sessions should be used to calculate the user journey.For example, the time spent statistics 300 can be used to identifysegment 304 of sessions for calculating the user journey. In thisexample, segment 304 includes those sessions 306-312 having respectivetime spents within 10% from the average time spent. However, as one ofordinary skill in the art will readily recognize, the segment can beshifted or modified along the distribution of the time spent statistics300 to change the scope or target of sessions used to calculate the userjourney. For example, in some cases, the segment 304 can be increased toinclude sessions having time spents within 20% from the average timespent.

FIG. 4 illustrates an exemplary route map 400. The route map 400 caninclude events and paths mapped for a group of sessions along a timeplane 402 and a location plane 404. Thus, the time plane 402 and thelocation plane 404 can indicate a time and location associated with eachof the events in the group of sessions. The various events can beconnected to indicate the various paths in the group of sessions. Themost common path can also be mapped and identified in the route map 400.In this example, the most common path includes segments 406A-F. Here,the various segments 406A-F in the most common path are depicted usingstraight lines to identify the most common path from the other paths.However, as one of ordinary skill in the art will readily recognize, themost common path can be identified in other ways. For example, the mostcommon path can be identified using labels, markings, colors, shapes,symbols, etc. Indeed, in some cases, the most common path can be theonly path illustrated and, therefore, would not require any specialmarkings to differentiate it from other paths.

The most common path, represented by segments 406A-F, can be identifiedto create the user journey. The route map 400 can thus indicate the userjourney created based on the group of sessions. The user journey caninclude the events in the most common path; the segments 406A-F, whichcan represent the progress or movement of the composite session createdby the user journey; timing information associated with the events andthe composite session; location information; etc. The events in theroute map 400 can be represented with varying levels of detail dependingon the specific configuration. For example, the route map 400 caninclude an indication of each event, as well as any informationassociated with the event, such as time spent information, session ID,event description data, etc. In some cases, the indications of eachevent in the route map 400 can be user-selectable. Upon user selection,the event indications can be configured to provide additional detailsand information about the selected event. As a result, the granularityof the information presented can be at least partly controlled by theuser.

In some cases, the event indications can also include screenshots orvideos associated with the corresponding event. For example, a user canselect a specific event depicted in the route map 400 to view ascreenshot or video representing what the user was actually looking atduring that particular event and/or simulate the users actions at thatmoment in the session. Other graphical and visual representations arealso contemplated herein.

The route map 400 can provide a visual overview of the user journeybased on the group of sessions. A user can look at the route map 400 andquickly obtain a visual representation of the most common path of theusers in the group of sessions. The user can quickly obtain a visualsense of the events in the most common path, the timing of events in thepath, the location of events in the path, and any other characteristicor pattern. Moreover, the amount of information, or the level of detail,that is visually discernible from the route map 400 can be configuredaccording to specific objectives or goals. And while additional detailsand information can be included in the route map 400 to provide a moredescriptive representation of the group of sessions, in some cases, asimplified representation may be better suited to avoid unnecessarydistractions from ancillary details. Accordingly, the configuration ofthe route map 400 can be varied for this purpose.

For example, if the user is only interested in the most common path, heor she may prefer to configure the route map 400 to only depict the mostcommon path, without depicting any other paths. On the other hand, ifthe user wants to be able to get a visual representation of all thepaths in relation to the most common path, the route map 400 can beconfigured to depict every path in the group of sessions and otherwisehighlight, emphasize, or distinguish the most common path.

FIG. 5 illustrates an exemplary decision tree 500 showing user journeys.The decision tree 500 can provide an acyclic, hierarchical, visualrepresentation of user journeys. Moreover, the decision tree 500 caninclude nodes 502-518, each of which can indicate a view, video,gesture, or event in the user journey.

In some cases, the nodes 502-518 can include the respective names of theviews, videos, gestures, or events they represent. The nodes 502-518 canalso include screenshots based on the views, videos, gestures, or eventsthey represent. Moreover, the nodes 502-518 can include the percent ofsessions which follow the path through the respective nodes 502-518, aswell as the percent of sessions which terminate at the respective nodes502-518. For example, node 504 includes the name of the event, “EventB,” indicates that 60% of the sessions follow the path through node 504,and 5% terminate at node 504. Similarly, node 510 includes the name ofthe event, “Event E,” and indicates that 55% of the sessions follow thepath through node 510, and 5% of the sessions terminate at node 510.Finally, node 518 includes the name of the node, “Node I,” and indicatesthat 50% of the sessions follow the complete path terminating in node518.

The percent information can also indicate the most common path of thesessions. For example, the percent information in node 518 indicatesthat 50% of the sessions terminate at that node and, since this node hasthe highest percentage for complete paths, it follows that the pathterminating in node 518 corresponds to the most common path. The nodesand/or connectors for the most common path can include markings, such aslabels, to indicate that the associated path is the most common path.

Moreover, the nodes 502-518 can be connected by connectors, such asarrows, showing the paths for each of the nodes 502-518. In some cases,the arrows can have different weights, colors, shapes, orcharacteristics based on the commonality or associated percentage oftheir respective paths. For example, the arrows following the mostcommon path can be thicker or colored red to indicate that theycorrespond to the most common path.

In some embodiments, the decision tree 500 can include names or iconsrepresenting respective gestures or events. Moreover, the names or iconscan be superimposed on the respective arrows. Further, the shape or iconof the nodes 502-518 can be based on the type of view, video, gesture,or event they represent. For example, in FIG. 5, nodes 502, 504, 508,510, and 512 have a squared shape representing a specific type of event,such as a view. On the other hand, nodes 506 and 514-518 have a roundedshape which can represent a different type of event, such as a gesture.

Each of the nodes 502-518 can also include additional information. Forexample, the nodes 502-518 can include the average KPI (AVGTS, V/V,etc.). As another example, the nodes 502-518 can include specificsession information, content information, or screenshots. In some cases,the nodes 502-518 can also include a link to other information, such asstatistics, metrics, history, user information, provider information,product information, tags, other decision trees, other sessions, code,or even external information, such as a website.

As illustrated above, the decision tree 500 can provide visualrepresentations and indications of the taxonomy of events in a group ofsessions, the relationship of events in the group of sessions, thesignificance of the events, the user journeys made up by the events,etc. The information depicted in the decision tree 500 is non-limiting,for illustration purposes and can vary as indicated above. One ofordinary skill in the art will readily recognize that the decision tree500 can have other configurations and additional information.

FIG. 6A illustrates an exemplary heat map 600 based on a screenshot ofcontent. The screenshot can include an advertisement 602 presented toone or more users. The various areas in the advertisement 602 can havevarying shades of color based on associated values corresponding to thenumber of gestures or inputs at the respective areas or locations in theadvertisement 602. Thus, the shades of color can provide a visualindication of the specific locations within the advertisement 602 thatare associated with an input, such as a gesture, detected from the useror device, as well as the number of detected inputs at the specificlocations. For example, the advertisement 602 can include areas having ashading 604 indicating a density of inputs in those areas, and areashaving a different shading 606 indicating a different density of inputsin those areas. Here, the distribution of the shades 604, 606 of colorin the advertisement 602 can represent the distribution of inputs, andthe varying shades 604, 606 can represent the varying numbers of inputsassociated with the corresponding locations of the respective shadedareas.

The areas having the lighter shade 604 can represent lower numbers ofinputs, and the areas having the darker shade 606 can represent highernumbers of inputs, for example. Moreover, the larger concentration ofshades can represent larger concentrations of inputs, and vice versa.The heat map 600 can thus provide a visual representation of the inputsreceived for the advertisement 602. In some embodiments, the heat map600 can include additional screenshots. For example, the heat map 600can include a screenshot for each event in a user journey or path.

While the heat map 600 shows different shades of black and gray, one ofordinary skill in the art will readily recognize that the heat map 600can instead, or in addition, show different colors, different shapes,different objects, and/or different attributes to represent thedifferent values and statistics. For example, the heat map 600 candepict the different areas and densities using different colors asopposed to different shades. However, for simplicity, the differentareas in the advertisement 602 are shown in FIG. 6A using black andwhite shades.

FIG. 6B illustrates another exemplary heat map 608 based on a screenshotof content. The screenshot illustrates an advertisement 610 whichcontains media content, as well as menus and user interface controls.The advertisement 610 contains shades 612 and 614 to depict thedensities of inputs in specific areas of the advertisement 610, aspreviously described in FIG. 6A. The shading can provide a visualdepiction of the number of user selections of the different menus anduser interface controls, as well as any graphical elements in theadvertisement 610. For example, the shading can illustrate which menusor user interface controls were selected most often, and which wereselected least often. The shading can also illustrate which areas of theadvertisement were selected most often and which were selected leastoften. This information can help an advertiser with the placement ofgraphical elements, menus, and user interface controls, as well as thespecific selection of items presented to the user. For example, theshading can illustrate a distribution of inputs that indicates thatcertain areas of the advertisement 610 tend to be ignored by users,while other areas seem to receive much more attention from those users.Accordingly, the advertiser can shift the placement of elements in theadvertisement 610 to maximize the performance of the advertisement 610by taking advantage of the demonstrated tendencies and propensities ofthe analyzed human-computer interaction, for example.

In some embodiments, areas in the advertisement 610 having a highestdensity of user inputs can be shaded in red to indicate the high numberof interactions associated with those specific areas, and areas having alower density of user inputs can be shaded in yellow to indicate thelower number of interactions associated with those areas. The number ofcolors, shades, and interaction levels depicted in the heat map 608 canvary in some configurations. For example, in some cases, the areas inthe advertisement 610 can be divided according to a greater number ofgroupings to provide a more granular illustration of inputs.

Having disclosed some basic system components and concepts, thedisclosure now turns to the exemplary method embodiment shown in FIG. 7.For the sake of clarity, the method is described in terms of a contentdelivery system 106, as shown in FIG. 1, configured to practice themethod. The steps outlined herein are exemplary and can be implementedin any combination thereof, including combinations that exclude, add, ormodify certain steps.

The content delivery system 106 first determines an average time spentfor sessions associated with a presentation of content (700). Thesessions can include any number of sessions associated with thepresentation of content and/or the content delivery system. In somecases, the sessions can include one or more groups of sessions selectedas input based on one or more factors, such as characteristics,segments, targeting values, etc. The presentation of content can includevideo, audio, text, or any other type of media content. The average timespent for the sessions can be calculated based on a respective timespent for each of the sessions. For example, the time spent for each ofthe sessions can be combined, and the combined value used to calculatethe average time spent based on the number of sessions included in thecalculation.

The content delivery system 106 then identifies a representative groupof sessions from the sessions by identifying each of the sessions havinga respective time spent within a statistical range from the average timespent for the sessions (702). For example, the content delivery system106 can calculate a statistical distribution of time spents associatedwith the sessions, and select a predefined range, such as 10%, from theaverage time spent as indicated in the distribution, to select therepresentative group of sessions. The segment of sessions or percentilerange within the distribution used to identify the representative groupof sessions can be relative to the average time spent or any otherpoint(s) in the distribution, such as the end points representing thelowest and highest percentiles, for example. Moreover, the segment ofsessions or percentile range can vary based on specific goals orapplications.

The representative group of sessions can be a subgroup of the sessionsused as input. For example, the representative group of sessions can bea subgroup of the sessions having the highest likelihood of includingthe most common path of events for the particular presentation ofcontent. In this sense, the representative group of sessions can referto the subgroup of sessions estimated or projected to be the mostrepresentative sessions of the most common paths of the sessions or usertrajectories during the presentation of content.

Next, the content delivery system 106 determines a most common path ofevents from the representative group of sessions to yield a most commonuser journey associated with the presentation of content (704). Thecontent delivery system 106 can analyze the statistics associated witheach of the events in the representative group of sessions to determinethe most common events within the representative group of sessions. Thecontent delivery system 106 can identify the path corresponding to eachof the sessions in the representative group of sessions and compare thepaths to determine the most common path of events. The most common userjourney can be based on the most common path of events, and canrepresent the most common interactions during the presentation ofcontent.

In some embodiments, the content delivery system 106 can then generate avisual representation of the most common user journey. Here, the contentdelivery system 106 can present the most common path of events via agraphical user interface, and represent different events and informationusing various graphical elements, such as icons, images, screenshots,videos, simulations, taxonomies, etc. The content delivery system 106can also include visual representations of different paths and sessions,and visually depict the various details and relationships of items inone or more user journeys.

FIG. 8A, and FIG. 8B illustrate exemplary possible system embodiments.The more appropriate embodiment will be apparent to those of ordinaryskill in the art when practicing the present technology. Persons ofordinary skill in the art will also readily appreciate that other systemembodiments are possible.

FIG. 8A illustrates a conventional system bus computing systemarchitecture 800 wherein the components of the system are in electricalcommunication with each other using a bus 805. Exemplary system 800includes a processing unit (CPU or processor) 810 and a system bus 805that couples various system components including the system memory 815,such as read only memory (ROM) 820 and random access memory (RAM) 825,to the processor 810. The system 800 can include a cache of high-speedmemory connected directly with, in close proximity to, or integrated aspart of the processor 810. The system 800 can copy data from the memory815 and/or the storage device 830 to the cache 812 for quick access bythe processor 810. In this way, the cache can provide a performanceboost that avoids processor 810 delays while waiting for data. These andother modules can control or be configured to control the processor 810to perform various actions. Other system memory 815 may be available foruse as well. The memory 815 can include multiple different types ofmemory with different performance characteristics. The processor 810 caninclude any general purpose processor and a hardware module or softwaremodule, such as module 1 832, module 2 834, and module 3 836 stored instorage device 830, configured to control the processor 810 as well as aspecial-purpose processor where software instructions are incorporatedinto the actual processor design. The processor 810 may essentially be acompletely self-contained computing system, containing multiple cores orprocessors, a bus, memory controller, cache, etc. A multi-core processormay be symmetric or asymmetric.

To enable user interaction with the computing device 800, an inputdevice 845 can represent any number of input mechanisms, such as amicrophone for speech, a touch-sensitive screen for gesture or graphicalinput, keyboard, mouse, motion input, speech and so forth. An outputdevice 835 can also be one or more of a number of output mechanismsknown to those of skill in the art. In some instances, multimodalsystems can enable a user to provide multiple types of input tocommunicate with the computing device 800. The communications interface840 can generally govern and manage the user input and system output.There is no restriction on operating on any particular hardwarearrangement and therefore the basic features here may easily besubstituted for improved hardware or firmware arrangements as they aredeveloped.

Storage device 830 is a non-volatile memory and can be a hard disk orother types of computer readable media which can store data that areaccessible by a computer, such as magnetic cassettes, flash memorycards, solid state memory devices, digital versatile disks, cartridges,random access memories (RAMs) 825, read only memory (ROM) 820, andhybrids thereof.

The storage device 830 can include software modules 832, 834, 836 forcontrolling the processor 810. Other hardware or software modules arecontemplated. The storage device 830 can be connected to the system bus805. In one aspect, a hardware module that performs a particularfunction can include the software component stored in acomputer-readable medium in connection with the necessary hardwarecomponents, such as the processor 810, bus 805, display 835, and soforth, to carry out the function.

FIG. 8B illustrates a computer system 850 having a chipset architecturethat can be used in executing the described method and generating anddisplaying a graphical user interface (GUI). Computer system 850 is anexample of computer hardware, software, and firmware that can be used toimplement the disclosed technology. System 850 can include a processor855, representative of any number of physically and/or logicallydistinct resources capable of executing software, firmware, and hardwareconfigured to perform identified computations. Processor 855 cancommunicate with a chipset 860 that can control input to and output fromprocessor 855. In this example, chipset 860 outputs information tooutput 865, such as a display, and can read and write information tostorage device 870, which can include magnetic media, and solid statemedia, for example. Chipset 860 can also read data from and write datato RAM 675. A bridge 880 for interfacing with a variety of userinterface components 885 can be provided for interfacing with chipset860. Such user interface components 885 can include a keyboard, amicrophone, touch detection and processing circuitry, a pointing device,such as a mouse, and so on. In general, inputs to system 850 can comefrom any of a variety of sources, machine generated and/or humangenerated.

Chipset 860 can also interface with one or more communication interfaces890 that can have different physical interfaces. Such communicationinterfaces can include interfaces for wired and wireless local areanetworks, for broadband wireless networks, as well as personal areanetworks. Some applications of the methods for generating, displaying,and using the GUI disclosed herein can include receiving ordereddatasets over the physical interface or be generated by the machineitself by processor 855 analyzing data stored in storage 870 or 875.Further, the machine can receive inputs from a user via user interfacecomponents 885 and execute appropriate functions, such as browsingfunctions by interpreting these inputs using processor 855.

It can be appreciated that exemplary systems 800 and 850 can have morethan one processor 810 or be part of a group or cluster of computingdevices networked together to provide greater processing capability.

For clarity of explanation, in some instances the present technology maybe presented as including individual functional blocks includingfunctional blocks comprising devices, device components, steps orroutines in a method embodied in software, or combinations of hardwareand software.

In some embodiments the computer-readable storage devices, mediums, andmemories can include a cable or wireless signal containing a bit streamand the like. However, when mentioned, non-transitory computer-readablestorage media expressly exclude media such as energy, carrier signals,electromagnetic waves, and signals per se.

Methods according to the above-described examples can be implementedusing computer-executable instructions that are stored or otherwiseavailable from computer readable media. Such instructions can comprise,for example, instructions and data which cause or otherwise configure ageneral purpose computer, special purpose computer, or special purposeprocessing device to perform a certain function or group of functions.Portions of computer resources used can be accessible over a network.The computer executable instructions may be, for example, binaries,intermediate format instructions such as assembly language, firmware, orsource code. Examples of computer-readable media that may be used tostore instructions, information used, and/or information created duringmethods according to described examples include magnetic or opticaldisks, flash memory, USB devices provided with non-volatile memory,networked storage devices, and so on.

Devices implementing methods according to these disclosures can comprisehardware, firmware and/or software, and can take any of a variety ofform factors. Typical examples of such form factors include laptops,smart phones, small form factor personal computers, personal digitalassistants, and so on. Functionality described herein also can beembodied in peripherals or add-in cards. Such functionality can also beimplemented on a circuit board among different chips or differentprocesses executing in a single device, by way of further example.

The instructions, media for conveying such instructions, computingresources for executing them, and other structures for supporting suchcomputing resources are means for providing the functions described inthese disclosures.

Although a variety of examples and other information was used to explainaspects within the scope of the appended claims, no limitation of theclaims should be implied based on particular features or arrangements insuch examples, as one of ordinary skill would be able to use theseexamples to derive a wide variety of implementations. Further andalthough some subject matter may have been described in languagespecific to examples of structural features and/or method steps, it isto be understood that the subject matter defined in the appended claimsis not necessarily limited to these described features or acts. Forexample, such functionality can be distributed differently or performedin components other than those identified herein. Rather, the describedfeatures and steps are disclosed as examples of components of systemsand methods within the scope of the appended claims. Claim languagereciting “at least one of” a set indicates that one member of the set ormultiple members of the set satisfy the claim. Tangiblecomputer-readable storage media, computer-readable storage devices, orcomputer-readable memory devices, expressly exclude media such astransitory waves, energy, carrier signals, electromagnetic waves, andsignals per se.

We claim:
 1. A computer-implemented method comprising: determining, viaa content delivery system, a respective time spent for each of aplurality of sessions associated with a respective presentation ofdigital content; recording, using the content delivery system, gestureevents, each gesture event corresponding to a session of the pluralityof sessions; determining, using the content delivery system, an averagetime spent for the plurality of sessions; based on the respective timespent for each of the plurality of sessions, identifying, using thecontent delivery system, a subset of sessions from the plurality ofsessions having respective time spents that are within a statisticalrange from the average time spent for the plurality of sessions; basedon the recorded gesture event for each session from the subset ofsessions, generating, using the content delivery system, a respectivepath of events; based on the respective path of events, determining,using the content delivery system, a most common path of events from thesubset of sessions to yield a most common user journey associated withthe respective presentation of digital content, the most common path ofevents identifying at least one gesture event of the gesture events; andgenerating, using the content delivery system, a graphical-userinterface comprising a visual representation of the most common path ofevents, wherein the visual representation comprises a selectableindication simulating the at least one gesture event or a result of theat least one gesture event included in the most common path of events.2. The computer-implemented method of claim 1, wherein determining theaverage time spent comprises determining a statistical distribution oftime spent measurements associated with the plurality of sessions, andwherein the plurality of sessions comprises rich media advertisingsessions.
 3. The computer-implemented method of claim 1, furthercomprising presenting the most common user journey via a graphical userinterface.
 4. The computer-implemented method of claim 3, wherein theevents comprise at least one of a user interaction, a view event, anaudio event, and a video event, and wherein the user interactioncomprises at least one gesture.
 5. The computer-implemented method ofclaim 1, further comprising identifying a threshold number of sessionsfrom the plurality of sessions having an asymmetric path of events, theasymmetric path of events comprising an asymmetric user journey, theasymmetric user journey having a predetermined degree of deviation fromthe most common user journey.
 6. The computer-implemented method ofclaim 5, wherein the most common user journey comprises a compositesession based on the most common path of events from the group ofsessions.
 7. The computer-implemented method of claim 1, furthercomprising: for each session in the group of sessions including the mostcommon path of events, measuring an average timing between each pair ofconsecutive events to yield respective timing statistics.
 8. Thecomputer-implemented method of claim 7, further comprising for eachsession in the group of sessions including the most common path ofevents, determining an average location of each gesture within therespective presentation of digital content in the session, to yieldrespective gesture locations.
 9. The computer-implemented method ofclaim 8, wherein the most common user journey comprises a sequence ofevents based on the most common path of events, the respective timingstatistics, and the respective gesture locations.
 10. Thecomputer-implemented method of claim 1, further comprising: clusteringthe plurality of sessions into characteristic sub-type groups; anddetermining the most common path of events for at least one group fromthe characteristic sub-type groups.
 11. The computer-implemented methodof claim 1, further comprising: generating a visual representation ofthe most common user journey; and displaying the visual representationvia a graphical user interface.
 12. The computer-implemented method ofclaim 11, wherein the visual representation comprises at least one of adecision tree, a user journey playback presentation, a chart, a video,an animation, a heat map, and a route map.
 13. The computer-implementedmethod of claim 1, further comprising identifying an error pointassociated with at least one of the plurality of sessions based on themost common user journey, the error point comprising at least one of anerror source, an error location, an error sequence, an error triggeringevent, and an error antecedent event.
 14. The computer-implementedmethod of claim 1, further comprising collecting data associated withthe plurality of sessions, wherein the average time spent is based onthe data.
 15. The computer-implemented method of claim 14, wherein thedata comprises respective time spent measurements associated with theplurality of sessions, and wherein the average time spent corresponds toan average of the respective time spent measurements.
 16. Thecomputer-implemented method of claim 1, wherein the statistical range isbased on a threshold deviation from the average time spent.
 17. A systemcomprising: a content delivery system comprising: one or moreprocessors; and at least one computer-readable storage medium havingstored therein instructions which, when executed by the one or moreprocessors, cause the one or more processors to perform operationscomprising: collecting data associated with a plurality of sessions, theplurality of sessions being associated with a presentation of content;recording gesture events, each gesture event corresponding to a sessionof the plurality of sessions; based on the data, calculating an averagetime spent for the plurality of sessions; identifying one or moresessions from the plurality of sessions having a respective average timespent that is within a statistical range from the average time spent forthe plurality of sessions; based on the recorded gesture for eachrespective session from the one or more sessions, determining arespective path of events, the respective path of events mapping a pathof sequence of events within the respective session; based on therespective path of events, determining a most common path of events fromthe one or more sessions to yield a most common user journey associatedwith the presentation of content, the most common path of eventsidentifying at least one gesture of the gesture events; and generate agraphical-user interface comprising a visual representation of the mostcommon path of gesture events, wherein the visual representationcomprises selectable indication simulating the at least one gestureevent or a result of the at least one gesture event included in the mostcommon path of events.
 18. The system of claim 17, wherein thestatistical range comprises +/−10% of the average time spent.
 19. Thesystem of claim 17, wherein the data is collected from at least oneadvertising unit associated with the plurality of sessions.
 20. Thesystem of claim 17, wherein the most common user journey comprises asequence of events associated with the presentation of content, andwherein the events comprise at least one of gestures, view events, audioevents, and video events.
 21. The system of claim 20, wherein thecomputer-readable storage medium stores additional instructions which,when executed by the one or more processors, result in an operationfurther comprising generating a graphical representation of the mostcommon user journey via a graphical user interface, the graphicalrepresentation including indications of average gesture locations andaverage timings between consecutive events.
 22. A non-transitorycomputer-readable storage medium comprising: instructions which, whenexecuted by a content delivery system, cause the computing device to:receive data indicating a time spent for each of a plurality ofsessions, the plurality of sessions being associated with a playback orpresentation of digital content; recording gesture events, each gestureevent corresponding to a session of the plurality of sessions; based onthe data, calculate an average time spent for the plurality of sessions;identify one or more sessions from the plurality of sessions, the one ormore sessions having a respective average time spent within a range orstatistical deviation from the average time spent for the plurality ofsessions, to yield one or more representative sessions; based on therecorded gesture event for each of the one or more representativesessions, generate a respective path of events; based on the respectivepath of events, determine a most common path of events for the one ormore representative sessions, the most common path of events identifyingat least one gesture of the gesture events; based on the most commonpath of gesture events, generate a composite session comprising arepresentative session associated with the plurality of sessions; andgenerating a graphical-user interface comprising a visual representationof the most common path of gesture events, wherein the visualrepresentation comprises selectable indications simulating the at leastone gesture event or a result of the at least one gesture event includedin the most common path of events.
 23. The non-transitorycomputer-readable storage medium of claim 22, storing additionalinstructions which, when executed by the computing device, result in anoperation further comprising presenting a description of therepresentative session.
 24. The non-transitory computer-readable storagemedium of claim 22, wherein the composite session comprises a mostcommon user journey associated with the playback of content, and whereinthe time spent data is collected from at least one content systemassociated with the playback of content.
 25. The non-transitorycomputer-readable storage medium of claim 22, wherein the eventscomprise at least one of gesture events, view events, and video events,and wherein the composite session includes an indication of at least oneof an average timing between consecutive events and gesture locations.